freeipa/ipapython/admintool.py

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# Authors:
# Petr Viktorin <pviktori@redhat.com>
#
# Copyright (C) 2012 Red Hat
# see file 'COPYING' for use and warranty information
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""A common framework for command-line admin tools, e.g. install scripts
Handles common operations like option parsing and logging
"""
import sys
import os
import traceback
from optparse import OptionGroup # pylint: disable=deprecated-module
from ipapython import version
from ipapython import config
from ipapython import ipa_log_manager
class ScriptError(Exception):
"""An exception that records an error message and a return value
"""
def __init__(self, msg='', rval=1):
if msg is None:
msg = ''
super(ScriptError, self).__init__(msg)
self.rval = rval
@property
def msg(self):
return str(self)
class AdminTool(object):
"""Base class for command-line admin tools
To run the tool, call the main() classmethod with a list of command-line
arguments.
Alternatively, call run_cli() to run with command-line arguments in
sys.argv, and call sys.exit() with the return value.
Some commands actually represent multiple related tools, e.g.
``ipa-server-install`` and ``ipa-server-install --uninstall`` would be
represented by separate classes. Only their options are the same.
To handle this, AdminTool provides classmethods for option parsing
and selecting the appropriate command class.
A class-wide option parser is made by calling add_options.
The options are then parsed into options and arguments, and
get_command_class is called with those to retrieve the class.
That class is then instantiated and run.
Running consists of a few steps:
- validating options or the environment (validate_options)
- setting up logging (setup_logging)
- running the actual command (run)
Any unhandled exceptions are handled in handle_error.
And at the end, either log_success or log_failure is called.
Class attributes to define in subclasses:
command_name - shown in logs
log_file_name - if None, logging is to stderr only
usage - text shown in help
description - text shown in help
See the setup_logging method for more info on logging.
"""
command_name = None
log_file_name = None
usage = None
description = None
log = None
_option_parsers = dict()
@classmethod
def make_parser(cls):
"""Create an option parser shared across all instances of this class"""
parser = config.IPAOptionParser(version=version.VERSION,
usage=cls.usage, formatter=config.IPAFormatter(),
description=cls.description)
cls.option_parser = parser
cls.add_options(parser)
@classmethod
def add_options(cls, parser, debug_option=False):
"""Add command-specific options to the option parser
:param parser: The parser to add options to
:param debug_option: Add a --debug option as an alias to --verbose
"""
group = OptionGroup(parser, "Logging and output options")
group.add_option("-v", "--verbose", dest="verbose", default=False,
action="store_true", help="print debugging information")
if debug_option:
group.add_option("-d", "--debug", dest="verbose", default=False,
action="store_true", help="alias for --verbose (deprecated)")
group.add_option("-q", "--quiet", dest="quiet", default=False,
action="store_true", help="output only errors")
group.add_option("--log-file", dest="log_file", default=None,
metavar="FILE", help="log to the given file")
parser.add_option_group(group)
@classmethod
def run_cli(cls):
"""Run this command with sys.argv, exit process with the return value
"""
sys.exit(cls.main(sys.argv))
@classmethod
def main(cls, argv):
"""The main entry point
Parses command-line arguments, selects the actual command class to use
based on them, and runs that command.
:param argv: Command-line arguments.
:return: Command exit code
"""
if cls not in cls._option_parsers:
# We use cls._option_parsers, a dictionary keyed on class, to check
# if we need to create a parser. This is because cls.option_parser
# can refer to the parser of a superclass.
cls.make_parser()
cls._option_parsers[cls] = cls.option_parser
options, args = cls.option_parser.parse_args(argv[1:])
command_class = cls.get_command_class(options, args)
command = command_class(options, args)
return command.execute()
@classmethod
def get_command_class(cls, options, args):
return cls
def __init__(self, options, args):
self.options = options
self.args = args
self.safe_options = self.option_parser.get_safe_opts(options)
def execute(self):
"""Do everything needed after options are parsed
This includes validating options, setting up logging, doing the
actual work, and handling the result.
"""
self._setup_logging(no_file=True)
return_value = 1
try:
self.validate_options()
self.ask_for_options()
self.setup_logging()
return_value = self.run()
except BaseException as exception:
traceback = sys.exc_info()[2]
error_message, return_value = self.handle_error(exception)
if return_value:
self.log_failure(error_message, return_value, exception,
traceback)
return return_value
self.log_success()
return return_value
def validate_options(self, needs_root=False):
"""Validate self.options
It's also possible to compute and store information that will be
useful later, but no changes to the system should be made here.
"""
if needs_root and os.getegid() != 0:
raise ScriptError('Must be root to run %s' % self.command_name, 1)
if self.options.verbose and self.options.quiet:
raise ScriptError(
'The --quiet and --verbose options are mutually exclusive')
def ask_for_options(self):
"""Ask for missing options interactively
Similar to validate_options. This is separate method because we want
any validation errors to abort the script before bothering the user
with prompts.
Any options that might be asked for should also be validated here.
"""
pass
def setup_logging(self, log_file_mode='w'):
"""Set up logging
:param _to_file: Setting this to false will disable logging to file.
For internal use.
If the --log-file option was given or if a filename is in
self.log_file_name, the tool will log to that file. In this case,
all messages are logged.
What is logged to the console depends on command-line options:
the default is INFO; --quiet sets ERROR; --verbose sets DEBUG.
Rules of thumb for logging levels:
- CRITICAL for fatal errors
- ERROR for critical things that the admin must see, even with --quiet
- WARNING for things that need to stand out in the log
- INFO to display normal messages
- DEBUG to spam about everything the program does
- a plain print for things that should not be log (for example,
interactive prompting)
To log, use `self.log.info()`, `self.log.warning()`, etc.
Logging to file is only set up after option validation and prompting;
before that, all output will go to the console only.
"""
self._setup_logging(log_file_mode=log_file_mode)
def _setup_logging(self, log_file_mode='w', no_file=False):
if no_file:
log_file_name = None
elif self.options.log_file:
log_file_name = self.options.log_file
else:
log_file_name = self.log_file_name
if self.options.verbose:
console_format = '%(name)s: %(levelname)s: %(message)s'
verbose = True
debug = True
else:
console_format = '%(message)s'
debug = False
if self.options.quiet:
verbose = False
else:
verbose = True
ipa_log_manager.standard_logging_setup(
log_file_name, console_format=console_format,
filemode=log_file_mode, debug=debug, verbose=verbose)
self.log = ipa_log_manager.log_mgr.get_logger(self)
if log_file_name:
self.log.debug('Logging to %s' % log_file_name)
elif not no_file:
self.log.debug('Not logging to a file')
def handle_error(self, exception):
"""Given an exception, return a message (or None) and process exit code
"""
if isinstance(exception, ScriptError):
return exception.msg, exception.rval or 1
elif isinstance(exception, SystemExit):
if isinstance(exception.code, int):
return None, exception.code
return str(exception.code), 1
return str(exception), 1
def run(self):
"""Actual running of the command
This is where the hard work is done. The base implementation logs
the invocation of the command.
If this method returns (i.e. doesn't raise an exception), the tool is
assumed to have run successfully, and the return value is used as the
SystemExit code.
"""
self.log.debug('%s was invoked with arguments %s and options: %s',
self.command_name, self.args, self.safe_options)
self.log.debug('IPA version %s' % version.VENDOR_VERSION)
def log_failure(self, error_message, return_value, exception, backtrace):
self.log.debug(''.join(traceback.format_tb(backtrace)))
self.log.debug('The %s command failed, exception: %s: %s',
self.command_name, type(exception).__name__, exception)
if error_message:
self.log.error(error_message)
message = "The %s command failed." % self.command_name
if self.log_file_name:
message += " See %s for more information" % self.log_file_name
self.log.error(message)
def log_success(self):
self.log.info('The %s command was successful', self.command_name)